British Journal of Anaesthesia 103 (BJA/PGA Supplement): i14–i22 (2009)
doi:10.1093/bja/aep318
CLINICAL PRACTICE Point-of-care coagulation testing and transfusion algorithms L. J. Enriquez and L. Shore-Lesserson* Montefiore Medical Center, Department of Anesthesiology, Bronx, NY, USA *Corresponding author. E-mail: lshore@montefiore.org
Br J Anaesth 2009; 103 (Suppl. 1): i14–i22 Keywords: blood, anticoagulants; blood, anticoagulants, heparin; blood, coagulation; blood, platelets; blood, transfusion; measurement techniques, coagulation; measurement techniques, thrombelastograph
Patients undergoing coronary artery bypass grafting (CABG) account for 10% of the estimated 3.2 million annual recipients of red blood cell transfusions.41 The haemostatic management of patients undergoing cardiac surgery with cardiopulmonary bypass (CPB) necessitates an important and delicate balance between anticoagulation during CPB and proper haemostasis after CPB. These patients are at risk for excessive perioperative blood loss often requiring transfusion of blood products. In the past, clinicians administered blood products empirically due to long turnaround times of laboratory-based coagulation tests. This practice exposes patients to inappropriate blood therapy resulting in increased morbidity and mortality and hospital costs.3 10 65 Today, point-of-care (POC) devices are available providing rapid bedside monitoring to aid the clinician in directing appropriate targeted therapy.59 62 The majority of POC devices used today can perform multiple coagulation tests. The use of transfusion algorithms in conjunction with POC testing has been shown to reduce both transfusion requirements and blood loss in cardiac surgery.1 9 15 17 25 27 29 56 66 69 This review discusses current and pertinent perioperative POC monitors for coagulation, platelet function, and anti-platelet drug therapy and their respective roles in transfusion-guided algorithms.
Platelet dysfunction in cardiac surgery Patients who present for cardiac surgery often have pre-existing platelet defects that can be acquired or
drug-induced. Many patients are prescribed anti-thrombotic medication for disease states such as peripheral vascular disease and cerebrovascular disease, and thus can present for surgery with pharmacologically impaired coagulation and/or platelet function.28 Platelet number can also be reduced in patients who have been exposed to heparin. The potential for relative thrombocytopenia and platelet dysfunction makes platelet function very vulnerable. CPB itself also has many anti-platelet adverse effects.36 The literature supports that CPB down-regulates glycoprotein (GP)Ib and GPIIbIIIa receptors and decreases platelet responsiveness to thrombin and adenosine diphosphate (ADP).23 44 55 70 76 After cardiac surgery utilizing CPB, platelet function is compromised for at least 24 h. Couple this dysfunction with pre-existing anti-platelet effects from medication, and it becomes evident why it is so important to monitor platelet function in cardiac surgery.26 67 POC platelet analysers provide rapid assessment of platelet function and can measure the effects of anti-platelet therapy. Platelet function is a complex series of interactions of the endothelium with whole blood that provides platelets and coagulation factors for haemostasis. The gold standard measure of platelet function is platelet aggregometry using platelet-rich plasma. This laboratory technique is labourintensive and time-consuming and thus is not applicable for the surgical patient. POC tests of platelet function have become more prevalent in monitoring both surgical and medical patients. Because these tests assay whole blood, are portable, and are user-friendly, they are more easily
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Patients with cardiovascular disease have an array of haemostasis disorders that predispose to the development of thrombotic and embolic disease states. These patients are often maintained on anti-thrombotic medication to prevent adverse cardiovascular events. Patients undergoing cardiac surgery also have haemostatic disorders that include their intrinsic disease state, adjunctive medication, and the coagulation disturbances induced by cardiopulmonary bypass. The following review introduces the monitors that are available for monitoring perioperative coagulation, with an emphasis on cardiovascular surgery. Heparin monitors, platelet function monitors for use in transfusion algorithms, and monitoring anti-platelet drugs will be discussed.